counter electrode

The counter electrode can be placed either inside or outside the cavity .

对电极可根据需要置于共振腔的外面或里面。

Preparation the Counter Electrode of Nanocrystalline Dye-sensitized Solar Cells Via Self-assembly Method

自组法制备纳晶敏化太阳能电池对电极

Preparation of carbon counter electrode by doctor blade for flexible dye-sensitized solar cell

丝网印刷法制备柔性染料敏化太阳能电池碳对电极

Now the platinum counter electrode on conductive glass is often prepared by different preparation methods .

目前多采用镀铂的对电极，即采用不同方法将铂镀在导电玻璃上。

For the second new type of counter electrode , its influence on solar cell ' performances were researched .

本论文针对第二种新型对电极，进行了其对电池性能影响的初步研究。

Recent advances in tantalum electrolyte capacitor using conductive polymer for counter electrode are reviewed .

综述了导电高分子钽电解电容器的最新研究进展。

Recent Advances in the Research on the Tantalum Electrolytic Capacitor : Using Conductive Polymer for Counter Electrode

导电高分子钽电解电容器的研究进展导电高分子材料导电高分子

The working electrode and the counter electrode were arranged as two concentric columns whose diameters were different .

工作电极与对电极采用内外同心圆柱形的布置方式；

The major work is presented as following : ( 1 ) TiN as counter electrode for DSSCs .

主要研究工作包括如下内容：（1）染料敏化太阳能电池的氮化钛对电极材料。

First , a new type of counter electrode consisting of glass substrate , aluminum film and platinum film was proposed .

为此，提出两种新型对电极结构。第一种由基底材料、铝薄膜和其上的铂薄膜构成。

Preparation of PEDOT : PSS-C composite film counter electrode on the flexible substrate

柔性基底上PEDOT：PSS-C复合薄膜对电极的制备

A novel MOEMS optical switch array was proposed , including upper electrode array , counter electrode array and collimation optical fibers array .

设计了一种新型结构的MOEMS阵列光开关，开关由上电极阵列、倾斜下电极阵列和准直光纤阵列三部分组成。

Active area , the thickness of the platinum on the counter electrode and the concentration of electrolyte are important for affecting factors of DSC in series .

活性面积、对电极铂层厚度以及电解液的浓度是影响串联DSC的重要因素。

The counter electrode based on the stainless steel substrate has the merit of improving the conversion efficiency of the DSCs by reducing its internal resistance .

不锈钢对电极可以通过降低内阻来改善大面积染料敏化纳米薄膜太阳电池的光电转换效率。

Sulfides and their composite materials are used as counter electrode materials of DSC . We have obtained higher energy conversion efficiency , reducing the costs of DSC .

将硫化物及复合材料分别用于DSC对电极材料，获得了较高的能量转化效率，同时也降低了DSC电池的制作成本。

Based on MEMS technology , a micro three - electrode system including an Au working electrode , a Pt counter electrode and a Pt pseudo-reference electrode was produced .

采用MEMS技术，在硅片上制备了分别以Au、Pt、Pt为电极材料的工作电极、对电极以及准参比电极的微型三电极系统。

In the study , Pt wire as counter electrode , Ag / AgCl as reference electrode , with the quartz electrode plated gold form a three electrodes system .

本实验采用三电极体系，其中以Pt丝为辅助电极，Ag/AgCl为参比电极，镀金石英电极为工作电极。

The results show that initial discharge capacity is 400.02 mAh · g – 1 with metal Li as the counter electrode and the initial coulombic efficiency is 50 % .

试验显示，材料改性后，当以金属锂为对电极时，首次放电容量达400.02mAh·g–1，首次库仑效率为50%；

The NPC cell was assembled by dropping an electrolyte solution into the space between the TiO2 / dye electrode and the counter electrode and connecting an external circuit .

TiO2／染料电极与对电极组装，在两者之间滴上电解质溶液，连接外电路，完成NPC电池的组装。

The results showed that standard Pt counter electrode and I - / I3 - electrolyte both have negligible resistances and are thus not main efficiency-limiting factors .

结果显示，标准的Pt对电极以及I-/I3-电解质溶液的电阻较小，不是限制DSC效率的主要因素。

The counter electrode of low temperature flexible NDSC was prepared by Langmuir-Blodgett film modification , self-assembling of nanoclusters and heating at 140 ° C in vacuum .

4L&B膜修饰、纳米铂颗粒自组装之后的电极于140℃真空干燥，低温制备柔性纳晶敏化太阳能电池的对电极。

The diffuse GNs in the counter electrode can play a " bridge effect ", in other words , they can increase the photovoltaic properties by changing the series resistance ( Rs ) .

弥散分布在对电极中的GNs能起桥梁效应，通过改善串阻（RS），进而提高光电性能。

The Photo Electrode and Counter Electrode are the most important components in DSSC . To achieve roll-to-roll mass production , the high efficiency and low cost substrates become the heart of the matter .

光阳极和对极是DSSC中最重要的组成部分，要实现大规模生产应用，高性能但是价格低廉的基底则是一个关键的问题。

Graphene-Au nanoparticle composite film was fabricated by electrophoretic deposition and used as a counter electrode for CdS quantum dot-sensitized solar cells ( QDSSCs ) .

电泳沉积制备石墨烯/金纳米颗粒复合薄膜作为对电极应用于CdS量子点敏化太阳能电池。

Studies show that : The conversion efficiency (η) increases linearly along with the content of active carbon in graphite / activated carbon counter electrode , while the fill factor ( FF ) parabolically increases .

研究表明：随着石墨/活性碳对电极中活性碳含量增加，转换效率（η）随之呈线性增加，而填充因子（FF）也呈抛物线增加。

MEA is employed as both a counter electrode and working electrode ( with an external SCE reference electrode ) for oxidation of hydroquinone in contact with ammonium sulphate under humidified nitrogen gas .

膜电极被同时用作对电极和工作电极（用外部饱和甘汞电极），在于硫酸铵和加湿氮气接触条件下，研究了对苯二酚的氧化还原过程并得到了清晰的氧化还原响应。

Dye-sensitized solar cell ( DSSC ) is one of the third generation thin film solar cells , which is composed of a photoanode electrode , electrolyte , and a counter electrode ( CE ) .

染料敏化太阳能电池（Dye-SensitizedSolarCell，DSSC）属于第三代新型薄膜太阳能电池。DSSC由光阳极、电解液和对电极三部分组成。

At the temperature of 0 ℃ and the current density of 5 mA · cm-2 , the yield of phenyl acetic acid reached 74 % , using silver as work electrode , magnesium as counter electrode .

在0℃下，以银为工作电极，镁棒为对电极，在5mA·cm-2的电流密度下恒电流电解，当通过2.5F·mol-1的电量后，苯乙酸的产率可达74%。

A method was established for individual modification of three gold microelectrode bases sealed in the channel into a GOD enzyme working electrode , an Ag / AgCl reference electrode and a platinum counter electrode , respectively .

建立了一种PC微流控芯片封合之后，在通道内分别把三个金膜微电极修饰成葡萄糖氧化酶修饰工作电极、Ag/AgCl参比电极、Pt对电极的方法。

The last semicircle or line in the low-frequency region was for the resistance of the interphase between the counter electrode of Li and electrolyte solution or the diffusion of lithium-ion in the CAW electrode .

而处于低频端的直线或半圆对应于锂离子在碳原子线电极中的扩散或对电极锂片与电解质之间的界面阻抗。